SU1366655A1 - Steam power plant - Google Patents

Abstract

The invention allows to increase the reliability and efficiency. The heater, 18 of the heating agent is connected in a couple to the first in the course of the steam production selection 5, and in the water - after the top of the network heater 9, included in the pipeline (TP) 16 make-up water. The TP 16 is connected to the inlet and outlet of the heaters 10 and 11 of the second turbine 2. The main part of the make-up water heated to 70 ° C is supplied via the TP 16 to the network TP 21, and the other part to the heater 17, from where it is heated to 90-100 ° C, is supplied as a heating agent to the deaerator 15. 1C. f-ly, 1 ill.

Description

The invention relates to a power system and can be used in thermal power plants.

The purpose of the invention is to increase reliability and efficiency.

The drawing shows a diagram of a thermal power station.

The thermal power plant contains at least two steam θ turbines 1 and 2 with condensers 3 and 4, production lower and upper heating taps 5, 6 and 7. Lower and upper heating taps 6 and 7 of turbine 1 are connected respectively 15 lower and upper network heaters 8 and 9, and to the lower and upper heating taps 6 and 7 of turbine 2, respectively, lower and upper network heaters 10 and 11. Takes 5, 6 and 7 of turbine 1 are allocated for heating the source and make-up water and heating agent. A condenser 3, a lower network heater 8 of a turbine 1, a chemical water purification 13 (HVO), a decarbonizer 14, a vacuum deaerator 15 are connected to the source water pipe 12. a heating agent conduit 17, into which a heating agent heater 18 is included. The heater 18 is connected to the production selection 5 of the turbine 1, located above the upper heating selection 7. The pipe 16 is connected through a stop valve 19 and 20 to the network pipe 21 before and after the condenser 4 behind the lower and upper network heaters 10 and 11 of the turbine 2, the steam of which network water is heated. The number of turbines 1 and 2 included in the installation depends on thermal loads.

Installation works as follows.

The supply water is heated in the condenser 4, the lower and upper heaters 10 and 11 of the turbine 2. The temperature of the supply water and the pressure in the withdrawals 6 and 7 are changed in accordance with the change in the outdoor temperature. The leakage of water from the heating system is replenished with make-up water, prepared in HVO 13, decarbonizer 14 and vacuum deaerator 15. Heating of the source water is carried out in the condenser 3 (to a temperature of 20-30 C) and the lower network heating. body 8 of turbine 1 (up to a temperature of 3550 C). Deaerated make-up water with a temperature of 50-60 ° C. is heated in the upper heater 9 of the turbine 1 to a temperature of about 70 C, corresponding to the temperature of the water supplied to the hot water supply. Next, part of the make-up water through the pipe 17 is fed to the heater 18, where it is heated by the steam of selection 5 to 90-100 C and supplied as a heating agent to the deaerator 15. The main part of the make-up water through the pipe 16 is supplied to the network pipe 21. The place of supply of make-up water is selected based on the 2θ minimum temperature of make-up and network water in order to ensure the most economical loading of withdrawals 6 and 7 of turbine 2. Thus, at a temperature of make-up water of 70 ° C, make-up water 25 is supplied to the network pipe 21 behind the upper network by a heater 11. At a temperature of make-up water of 70 ° C and the same temperature of the return network water, make-up water 30 is supplied to the network pipe 21 to the condenser 4 ·.

Claims (2)

Claim 1. Thermal power station, ³⁵ containing at least two turbines with condensers, production, lower and upper heating taps, upper and lower 4θ network heaters, connected in pairs to the corresponding heating taps, the first turbine is equipped with a vacuum deaerator with the source and feed pipelines water and a heating agent, and the lower network heater of this turbine is included in the source water pipeline, the heating agent pipeline is connected to the make-up water pipeline, connected to the input of the condenser and the output of the lower network heater of the second turbine, characterized in that, in order to increase reliability and economy, the station is additionally equipped with a heating agent heater, connected in pairs to the first production selection along the steam, and after water top network 1366655 * of the heater included in the make-up water pipeline. 2. Station pop. 1, distinguished by the fact that the make-up water pipeline is connected through shut-off valves to the input of the lower and the output of the upper network heaters of the second turbine.